CN219044665U - Directional material feeding unit of slice material - Google Patents

Abstract

The utility model discloses a directional feeding device for sheet materials, which comprises a body and is characterized in that: the utility model discloses a vibrating tray, including vibration dish (1), the body is located the ejection of compact end of vibration dish (1), the body includes feeding track (2), be equipped with directional feed chute (2.1) on feeding track (2), the width of directional feed chute (2.1) is less than the length of slice material and the width of directional feed chute (2.1) is greater than the width of slice material, one side of vibration dish (1) is located to directional feed chute (2.1), and when slice material can't pass through directional feed chute (2.1), slice material removes to vibration dish (1), reorients. The utility model provides a sheet material directional feeding device which can realize short-side conveying and long-side separation of sheet materials in the process of conveying so as to ensure the uniformity of the sheet materials in the subsequent conveying process.

Description

Directional material feeding unit of slice material

Technical Field

The utility model relates to the field of material finishing equipment, in particular to a directional feeding device for sheet materials.

Background

The flaky materials are widely applied in production and application, especially small flaky materials, have huge use quantity, so after the production is finished, the flaky materials are also required to be arranged and packed so as to ensure the subsequent transportation and the orderly and quick use.

At any time, the technology advances, and automatic design is also started for the sorting and packing work of the sheet materials. In the process of arranging the flaky materials, the flaky materials are required to be conveyed in an orderly and uniform mode, and the flaky materials are simple in structure and are not square in most cases, so that long sides and short sides of the flaky materials are required to be unified in the process of arranging the flaky materials, and the consistency of subsequent operation is ensured.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the sheet material directional feeding device can realize short-side conveying and long-side separation of sheet materials in the conveying process so as to ensure the uniformity of the sheet materials in the subsequent conveying process.

The utility model solves the problems by adopting the following technical scheme: the utility model provides a slice material directional feeding device, includes the body, the body is located the ejection of compact end of vibration dish, the body includes the pay-off track, be equipped with directional feed chute on the pay-off track, directional feed chute's width is less than slice material's length and directional feed chute's width is greater than slice material's width, one side of vibration dish is located to directional feed chute, and when slice material can't pass through directional feed chute, slice material removes to vibration dish, carries out the reorientation.

Compared with the prior art, the utility model has the advantages that: through the design of vibration dish, with the continuous conveying of slice material to the feed track in, and the design of feed chute can separate the slice material of taking the minor face as the direction of delivery end and taking the long limit as the direction of delivery end to guarantee to take the minor face as the slice material of direction of delivery end and carry out subsequent operation through the feed chute, guarantee the uniformity of subsequent operation, and take the long limit to reenter on the vibration dish for the slice material of direction of delivery end, rearrange, convey to the feed track from the vibration dish in, until take the minor face to pass through from the feed chute as the direction of delivery end, guarantee the uniformity of the conveying of slice material and guarantee that all slice materials can accomplish the arrangement work.

As an improvement of the utility model, the feeding track is obliquely arranged towards the direction of the vibration disc, a baffle strip is arranged on one side of the feeding track, which is close to the vibration disc, a screening block is arranged on the feeding track, a directional feeding groove is formed between the screening block and the baffle strip, the screening block is in an inclined triangle, when the flaky materials move towards the direction of the directional feeding groove by taking the long side as the conveying direction end, the flaky materials move upwards along the inclined plane of the screening block, and after the flaky materials are higher than the baffle strip, the flaky materials move towards the direction of the vibration disc.

As an improvement of the utility model, a layer of flax layer is arranged on the inclined plane of the screening block.

As an improvement of the utility model, the linen layer is detachably connected to the screen block.

As an improvement of the utility model, the feeding track is provided with an artificial turf layer made of polyethylene.

As an improvement of the utility model, a lifting block is arranged between the screening block and the feeding track, and the lifting block has the same height as the artificial turf layer.

As an improvement of the utility model, the feeding track is provided with a fixed groove for fixing the sieving block, the fixed groove is arranged along the inclined direction of the feeding track, the sieving block is provided with a fixed hole matched with the fixed groove, and the distance between the sieving block and the baffle bar is adjustable and fixedly connected through the fixed matching of the fixed groove and the fixed hole.

As an improvement of the utility model, the top end of the inclined plane of the sieving block is provided with a limiting rod which is used for limiting the sheet material taking the long side as the conveying direction end to pass through the sieving block.

As an improvement of the utility model, one side of the limiting rod is provided with a guide rod which inclines along the feeding direction of the feeding track towards the vibration disc.

Drawings

Fig. 1 is a schematic top view of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of a side view connecting structure of the screen material block of the present utility model.

FIG. 3 is a schematic cross-sectional connecting structure of the screening block and the elevating block of the present utility model.

FIG. 4 is a schematic view of the structure of the fixing groove of the present utility model.

The figure shows: 1. vibration dish, 2, feeding track, 2.1, directional feed chute, 2.2, fixed slot, 3, blend stop, 4, sieve material piece, 4.1, fixed orifices, 5, linen layer, 6, artificial turf layer, 7, the bed hedgehopping piece, 8, gag lever post, 9, guide bar.

Detailed Description

Embodiments of the present utility model are further described below with reference to the accompanying drawings.

As shown in figures 1-3, the directional feeding device for the sheet materials comprises a body, the body is arranged at the discharging end of a vibration disc 1, the body comprises a feeding track 2, a directional feeding groove 2.1 is arranged on the feeding track 2, the width of the directional feeding groove 2.1 is smaller than the length of the sheet materials, the width of the directional feeding groove 2.1 is larger than the width of the sheet materials, the directional feeding groove 2.1 is arranged at one side of the vibration disc 1, when the sheet materials cannot pass through the directional feeding groove 2.1, the sheet materials move to the vibration disc 1 for reorientation, the feeding track 2 is obliquely arranged towards the direction of the vibration disc 1, a baffle bar 3 is arranged at one side, close to the vibration disc 1, of the feeding track 2, a sieve block 4 is arranged on the feeding track 2, the directional feeding groove 2.1 is formed between the sieve block 4 and the baffle bar 3, the sieve block 4 forms an oblique triangle, when the flaky materials move to the direction of the directional feeding groove 2.1 by taking the long side as the conveying direction end, the flaky materials move upwards along the inclined plane of the screen material block 4, after the flaky materials are higher than the height of the baffle strip 3, the flaky materials move to the direction of the vibration disc 1, because the vibration disc 1 is obliquely arranged, the flaky materials which are normally conveyed can be prevented from being separated from the feeding track 2 by the design of the baffle strip 3, the design of the screen material block 4 not only can realize the forming of the directional feeding groove 2.1, but also can realize the separation of the flaky materials by taking the long side as the conveying direction end and the flaky materials by taking the short side as the conveying direction end, then the flaky materials by taking the long side as the conveying direction end move upwards along the inclined plane of the screen material block 4 until the flaky materials exceed the height of the baffle strip 3, and the flaky materials by taking the long side as the conveying direction end return to the vibration disc 1 again for redirection, so as to ensure the directional conveying of all sheet materials.

As shown in fig. 3, a layer of linen layer 5 is arranged on the inclined plane of the screen material block 4, the design of the linen layer 5 can reduce friction and abrasion between the sheet material and the inclined plane of the screen material block 4, and the linen layer 5 is mainly worn when abrasion occurs, so that the inclined plane of the sheet material and the screen material block 4 is protected. The linen layer 5 is detachably connected to the screening block 4, and the wearing cloth layer 5 is convenient to replace after being worn after being used for a long time.

As shown in fig. 2 and 3, the feeding rail 2 is provided with an artificial turf layer 6 made of polyethylene, in the conveying process of the sheet material, the sheet material is conveyed on the feeding rail 2 in a sliding manner, so that the sheet material or the feeding rail 2 can be worn in the conveying process, the artificial turf layer 6 is designed to avoid the abrasion of the sheet material and the feeding rail 2, and meanwhile, the vibrating tray 1 is also provided with the artificial turf layer 6 to protect the sheet material and the material channel of the vibrating tray 1, and meanwhile, the impact when the sheet material falls from the feeding rail 2 can be buffered. The utility model provides a high quality and smooth nature that the slice material removed on sieve material piece 4 is guaranteed to the slope bottom of sieve material piece 4 and artificial grass cortex 6 equal height, is equipped with the bed hedgehopping piece 7 between sieve material piece 4 and the pay-off track 2, bed hedgehopping piece 7 and artificial grass cortex 6 high, makes the slice material remove the jamming condition, namely the bottom is too high, and the slice material is difficult to remove on the sieve material piece 4, and the bottom is too low, causes the slice material to appear the gliding condition when just removing on the sieve material piece 4 easily, and bed hedgehopping piece 7 can also be used for fixed scrim layer 5 as the fixed plate at scrim layer 5 both ends simultaneously.

As shown in fig. 1, 3 and 4, a fixed slot 2.2 for fixing the sieving block 4 is arranged on the feeding track 2, the fixed slot 2.2 is arranged along the inclined direction of the feeding track 2, a fixed hole 4.1 matched with the fixed slot 2.2 is arranged on the sieving block 4, the distance between the sieving block 4 and the barrier strip 3 is adjustable and fixedly connected through the fixed cooperation of the fixed slot 2.2 and the fixed hole 4.1, the width of the directional feeding slot 2.1 is adjusted, and two fixed holes 4.1 can be arranged to ensure the parallelism of two sides of the directional feeding slot 2.1.

As shown in fig. 1-3, the top end of the inclined plane of the screen material block 4 is provided with a limit rod 8, the limit rod 8 is used for limiting the sheet material taking the long side as the conveying direction end to pass through the screen material block 4, one side of the limit rod 8 is provided with a guide rod 9, the guide rod 9 inclines along the feeding direction of the feeding rail 2 towards the vibration disc 1, when the sheet material moves on the inclined plane of the screen material block 4, all the sheet material cannot be guaranteed to return to the vibration disc 1 in time, through the design of the limit rod 8, the sheet material taking the long side as the conveying direction end can be prevented from entering the subsequent operation across the top end of the screen material block 4, and then the sheet material is enabled to move towards the vibration disc 1 under the action of the guide rod 9, so that when the sheet material is separated from the screen material, the sheet material is guaranteed to be positioned above the vibration disc 1, but not on the feeding rail 2 at the tail end of the screen material block 4, and the sheet material is guaranteed to return to the vibration disc 1, and the sheet material is redirected to be screened.

The foregoing is illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the claims. The present utility model is not limited to the above embodiments, and the specific structure thereof is allowed to vary. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (9)

1. The utility model provides a directional material feeding unit of slice material, includes body, its characterized in that: the utility model discloses a vibrating tray, including vibration dish (1), the body is located the ejection of compact end of vibration dish (1), the body includes feeding track (2), be equipped with directional feed chute (2.1) on feeding track (2), the width of directional feed chute (2.1) is less than the length of slice material and the width of directional feed chute (2.1) is greater than the width of slice material, one side of vibration dish (1) is located to directional feed chute (2.1), and when slice material can't pass through directional feed chute (2.1), slice material removes to vibration dish (1), reorients.

2. A sheet material directional feeder according to claim 1, wherein: the feeding track (2) is obliquely arranged towards the direction of the vibration disc (1), one side, close to the vibration disc (1), of the feeding track (2) is provided with a baffle bar (3), the feeding track (2) is provided with a screening block (4), a directional feeding groove (2.1) is formed between the screening block (4) and the baffle bar (3), the screening block (4) is obliquely triangular, and when the flaky materials move towards the direction of the directional feeding groove (2.1) by taking the long side as the conveying direction end, the flaky materials move upwards along the inclined plane of the screening block (4), and after the flaky materials are higher than the height of the baffle bar (3), the flaky materials move towards the direction of the vibration disc (1).

3. A sheet material directional feeder as defined in claim 2 wherein: the inclined plane of the screening block (4) is provided with a layer of linen layer (5).

4. A sheet material directional feeder according to claim 3, wherein: the linen layer (5) is detachably connected to the screening block (4).

5. A sheet material directional feeder as defined in claim 2 wherein: an artificial turf layer (6) made of polyethylene is arranged on the feeding track (2).

6. The directional feeding apparatus for sheet materials as set forth in claim 5, wherein: a lifting block (7) is arranged between the screening block (4) and the feeding track (2), and the lifting block (7) and the artificial turf layer (6) are the same in height.

7. A sheet material directional feeder as defined in claim 2 wherein: the feeding track (2) is provided with a fixing groove (2.2) for fixing the sieving block (4), the fixing groove (2.2) is arranged along the inclined direction of the feeding track (2), the sieving block (4) is provided with a fixing hole (4.1) matched with the fixing groove (2.2), and the distance between the sieving block (4) and the barrier strip (3) is fixedly connected through the fixed fit of the fixing groove (2.2) and the fixing hole (4.1).

8. A sheet material directional feeder as defined in claim 2 wherein: the top end of the inclined plane of the screening block (4) is provided with a limiting rod (8), and the limiting rod (8) is used for limiting the sheet material taking the long side as the conveying direction end to pass through the screening block (4).

9. The directional feeding apparatus for sheet material as defined in claim 8 wherein: one side of the limiting rod (8) is provided with a guide rod (9), and the guide rod (9) inclines along the feeding direction of the feeding track (2) along the vibrating plate (1).

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